/**
******************************************************************************
*
* @file synchronousprocess.cpp
* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010.
* Parts by Nokia Corporation (qt-info@nokia.com) Copyright (C) 2009.
* @brief
* @see The GNU Public License (GPL) Version 3
* @defgroup
* @{
*
*****************************************************************************/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "synchronousprocess.h"
#include <QtCore/QDebug>
#include <QtCore/QTimer>
#include <QtCore/QEventLoop>
#include <QtCore/QTextCodec>
#include <QtCore/QFileInfo>
#include <QtCore/QDir>
#include <QtGui/QApplication>
#include <limits.h>
enum { debug = 0 };
enum { defaultMaxHangTimerCount = 10 };
namespace Utils {
// ----------- SynchronousProcessResponse
SynchronousProcessResponse::SynchronousProcessResponse() :
result(StartFailed),
exitCode(-1)
{
}
void SynchronousProcessResponse::clear()
{
result = StartFailed;
exitCode = -1;
stdOut.clear();
stdErr.clear();
}
QTCREATOR_UTILS_EXPORT QDebug operator<<(QDebug str, const SynchronousProcessResponse& r)
{
QDebug nsp = str.nospace();
nsp << "SynchronousProcessResponse: result=" << r.result << " ex=" << r.exitCode << '\n'
<< r.stdOut.size() << " bytes stdout, stderr=" << r.stdErr << '\n';
return str;
}
// Data for one channel buffer (stderr/stdout)
struct ChannelBuffer {
ChannelBuffer();
void clearForRun();
QByteArray linesRead();
QByteArray data;
bool firstData;
bool bufferedSignalsEnabled;
bool firstBuffer;
int bufferPos;
};
ChannelBuffer::ChannelBuffer() :
firstData(true),
bufferedSignalsEnabled(false),
firstBuffer(true),
bufferPos(0)
{
}
void ChannelBuffer::clearForRun()
{
firstData = true;
firstBuffer = true;
bufferPos = 0;
}
/* Check for complete lines read from the device and return them, moving the
* buffer position. This is based on the assumption that '\n' is the new line
* marker in any sane codec. */
QByteArray ChannelBuffer::linesRead()
{
// Any new lines?
const int lastLineIndex = data.lastIndexOf('\n');
if (lastLineIndex == -1 || lastLineIndex <= bufferPos)
return QByteArray();
const int nextBufferPos = lastLineIndex + 1;
const QByteArray lines = data.mid(bufferPos, nextBufferPos - bufferPos);
bufferPos = nextBufferPos;
return lines;
}
// ----------- SynchronousProcessPrivate
struct SynchronousProcessPrivate {
SynchronousProcessPrivate();
void clearForRun();
QTextCodec *m_stdOutCodec;
QProcess m_process;
QTimer m_timer;
QEventLoop m_eventLoop;
SynchronousProcessResponse m_result;
int m_hangTimerCount;
int m_maxHangTimerCount;
bool m_startFailure;
ChannelBuffer m_stdOut;
ChannelBuffer m_stdErr;
};
SynchronousProcessPrivate::SynchronousProcessPrivate() :
m_stdOutCodec(0),
m_hangTimerCount(0),
m_maxHangTimerCount(defaultMaxHangTimerCount),
m_startFailure(false)
{
}
void SynchronousProcessPrivate::clearForRun()
{
m_hangTimerCount = 0;
m_stdOut.clearForRun();
m_stdErr.clearForRun();
m_result.clear();
m_startFailure = false;
}
// ----------- SynchronousProcess
SynchronousProcess::SynchronousProcess() :
m_d(new SynchronousProcessPrivate)
{
m_d->m_timer.setInterval(1000);
connect(&m_d->m_timer, SIGNAL(timeout()), this, SLOT(slotTimeout()));
connect(&m_d->m_process, SIGNAL(finished(int,QProcess::ExitStatus)), this, SLOT(finished(int,QProcess::ExitStatus)));
connect(&m_d->m_process, SIGNAL(error(QProcess::ProcessError)), this, SLOT(error(QProcess::ProcessError)));
connect(&m_d->m_process, SIGNAL(readyReadStandardOutput()),
this, SLOT(stdOutReady()));
connect(&m_d->m_process, SIGNAL(readyReadStandardError()),
this, SLOT(stdErrReady()));
}
SynchronousProcess::~SynchronousProcess()
{
delete m_d;
}
void SynchronousProcess::setTimeout(int timeoutMS)
{
if (timeoutMS >= 0) {
m_d->m_maxHangTimerCount = qMax(2, timeoutMS / 1000);
} else {
m_d->m_maxHangTimerCount = INT_MAX;
}
}
int SynchronousProcess::timeout() const
{
return m_d->m_maxHangTimerCount == INT_MAX ? -1 : 1000 * m_d->m_maxHangTimerCount;
}
void SynchronousProcess::setStdOutCodec(QTextCodec *c)
{
m_d->m_stdOutCodec = c;
}
QTextCodec *SynchronousProcess::stdOutCodec() const
{
return m_d->m_stdOutCodec;
}
bool SynchronousProcess::stdOutBufferedSignalsEnabled() const
{
return m_d->m_stdOut.bufferedSignalsEnabled;
}
void SynchronousProcess::setStdOutBufferedSignalsEnabled(bool v)
{
m_d->m_stdOut.bufferedSignalsEnabled = v;
}
bool SynchronousProcess::stdErrBufferedSignalsEnabled() const
{
return m_d->m_stdErr.bufferedSignalsEnabled;
}
void SynchronousProcess::setStdErrBufferedSignalsEnabled(bool v)
{
m_d->m_stdErr.bufferedSignalsEnabled = v;
}
QStringList SynchronousProcess::environment() const
{
return m_d->m_process.environment();
}
void SynchronousProcess::setEnvironment(const QStringList &e)
{
m_d->m_process.setEnvironment(e);
}
void SynchronousProcess::setWorkingDirectory(const QString &workingDirectory)
{
m_d->m_process.setWorkingDirectory(workingDirectory);
}
QString SynchronousProcess::workingDirectory() const
{
return m_d->m_process.workingDirectory();
}
QProcess::ProcessChannelMode SynchronousProcess::processChannelMode () const
{
return m_d->m_process.processChannelMode();
}
void SynchronousProcess::setProcessChannelMode(QProcess::ProcessChannelMode m)
{
m_d->m_process.setProcessChannelMode(m);
}
SynchronousProcessResponse SynchronousProcess::run(const QString &binary,
const QStringList &args)
{
if (debug)
qDebug() << '>' << Q_FUNC_INFO << binary << args;
m_d->clearForRun();
// On Windows, start failure is triggered immediately if the
// executable cannot be found in the path. Do not start the
// event loop in that case.
m_d->m_process.start(binary, args, QIODevice::ReadOnly);
if (!m_d->m_startFailure) {
m_d->m_timer.start();
QApplication::setOverrideCursor(Qt::WaitCursor);
m_d->m_eventLoop.exec(QEventLoop::ExcludeUserInputEvents);
if (m_d->m_result.result == SynchronousProcessResponse::Finished || m_d->m_result.result == SynchronousProcessResponse::FinishedError) {
processStdOut(false);
processStdErr(false);
}
m_d->m_result.stdOut = convertStdOut(m_d->m_stdOut.data);
m_d->m_result.stdErr = convertStdErr(m_d->m_stdErr.data);
m_d->m_timer.stop();
QApplication::restoreOverrideCursor();
}
if (debug)
qDebug() << '<' << Q_FUNC_INFO << binary << m_d->m_result;
return m_d->m_result;
}
void SynchronousProcess::slotTimeout()
{
if (++m_d->m_hangTimerCount > m_d->m_maxHangTimerCount) {
if (debug)
qDebug() << Q_FUNC_INFO << "HANG detected, killing";
m_d->m_process.kill();
m_d->m_result.result = SynchronousProcessResponse::Hang;
} else {
if (debug)
qDebug() << Q_FUNC_INFO << m_d->m_hangTimerCount;
}
}
void SynchronousProcess::finished(int exitCode, QProcess::ExitStatus e)
{
if (debug)
qDebug() << Q_FUNC_INFO << exitCode << e;
m_d->m_hangTimerCount = 0;
switch (e) {
case QProcess::NormalExit:
m_d->m_result.result = exitCode ? SynchronousProcessResponse::FinishedError : SynchronousProcessResponse::Finished;
m_d->m_result.exitCode = exitCode;
break;
case QProcess::CrashExit:
// Was hang detected before and killed?
if (m_d->m_result.result != SynchronousProcessResponse::Hang)
m_d->m_result.result = SynchronousProcessResponse::TerminatedAbnormally;
m_d->m_result.exitCode = -1;
break;
}
m_d->m_eventLoop.quit();
}
void SynchronousProcess::error(QProcess::ProcessError e)
{
m_d->m_hangTimerCount = 0;
if (debug)
qDebug() << Q_FUNC_INFO << e;
// Was hang detected before and killed?
if (m_d->m_result.result != SynchronousProcessResponse::Hang)
m_d->m_result.result = SynchronousProcessResponse::StartFailed;
m_d->m_startFailure = true;
m_d->m_eventLoop.quit();
}
void SynchronousProcess::stdOutReady()
{
m_d->m_hangTimerCount = 0;
processStdOut(true);
}
void SynchronousProcess::stdErrReady()
{
m_d->m_hangTimerCount = 0;
processStdErr(true);
}
QString SynchronousProcess::convertStdErr(const QByteArray &ba)
{
return QString::fromLocal8Bit(ba.constData(), ba.size()).remove(QLatin1Char('\r'));
}
QString SynchronousProcess::convertStdOut(const QByteArray &ba) const
{
QString stdOut = m_d->m_stdOutCodec ? m_d->m_stdOutCodec->toUnicode(ba) : QString::fromLocal8Bit(ba.constData(), ba.size());
return stdOut.remove(QLatin1Char('\r'));
}
void SynchronousProcess::processStdOut(bool emitSignals)
{
// Handle binary data
const QByteArray ba = m_d->m_process.readAllStandardOutput();
if (debug > 1)
qDebug() << Q_FUNC_INFO << emitSignals << ba;
if (!ba.isEmpty()) {
m_d->m_stdOut.data += ba;
if (emitSignals) {
// Emit binary signals
emit stdOut(ba, m_d->m_stdOut.firstData);
m_d->m_stdOut.firstData = false;
// Buffered. Emit complete lines?
if (m_d->m_stdOut.bufferedSignalsEnabled) {
const QByteArray lines = m_d->m_stdOut.linesRead();
if (!lines.isEmpty()) {
emit stdOutBuffered(convertStdOut(lines), m_d->m_stdOut.firstBuffer);
m_d->m_stdOut.firstBuffer = false;
}
}
}
}
}
void SynchronousProcess::processStdErr(bool emitSignals)
{
// Handle binary data
const QByteArray ba = m_d->m_process.readAllStandardError();
if (debug > 1)
qDebug() << Q_FUNC_INFO << emitSignals << ba;
if (!ba.isEmpty()) {
m_d->m_stdErr.data += ba;
if (emitSignals) {
// Emit binary signals
emit stdErr(ba, m_d->m_stdErr.firstData);
m_d->m_stdErr.firstData = false;
if (m_d->m_stdErr.bufferedSignalsEnabled) {
// Buffered. Emit complete lines?
const QByteArray lines = m_d->m_stdErr.linesRead();
if (!lines.isEmpty()) {
emit stdErrBuffered(convertStdErr(lines), m_d->m_stdErr.firstBuffer);
m_d->m_stdErr.firstBuffer = false;
}
}
}
}
}
// Path utilities
enum OS_Type { OS_Mac, OS_Windows, OS_Unix };
#ifdef Q_OS_WIN
static const OS_Type pathOS = OS_Windows;
#else
# ifdef Q_OS_MAC
static const OS_Type pathOS = OS_Mac;
# else
static const OS_Type pathOS = OS_Unix;
# endif
#endif
// Locate a binary in a directory, applying all kinds of
// extensions the operating system supports.
static QString checkBinary(const QDir &dir, const QString &binary)
{
// naive UNIX approach
const QFileInfo info(dir.filePath(binary));
if (info.isFile() && info.isExecutable())
return info.absoluteFilePath();
// Does the OS have some weird extension concept or does the
// binary have a 3 letter extension?
if (pathOS == OS_Unix)
return QString();
const int dotIndex = binary.lastIndexOf(QLatin1Char('.'));
if (dotIndex != -1 && dotIndex == binary.size() - 4)
return QString();
switch (pathOS) {
case OS_Unix:
break;
case OS_Windows: {
static const char *windowsExtensions[] = {".cmd", ".bat", ".exe", ".com" };
// Check the Windows extensions using the order
const int windowsExtensionCount = sizeof(windowsExtensions)/sizeof(const char*);
for (int e = 0; e < windowsExtensionCount; e ++) {
const QFileInfo windowsBinary(dir.filePath(binary + QLatin1String(windowsExtensions[e])));
if (windowsBinary.isFile() && windowsBinary.isExecutable())
return windowsBinary.absoluteFilePath();
}
}
break;
case OS_Mac: {
// Check for Mac app folders
const QFileInfo appFolder(dir.filePath(binary + QLatin1String(".app")));
if (appFolder.isDir()) {
QString macBinaryPath = appFolder.absoluteFilePath();
macBinaryPath += QLatin1String("/Contents/MacOS/");
macBinaryPath += binary;
const QFileInfo macBinary(macBinaryPath);
if (macBinary.isFile() && macBinary.isExecutable())
return macBinary.absoluteFilePath();
}
}
break;
}
return QString();
}
QString SynchronousProcess::locateBinary(const QString &path, const QString &binary)
{
// Absolute file?
const QFileInfo absInfo(binary);
if (absInfo.isAbsolute())
return checkBinary(absInfo.dir(), absInfo.fileName());
// Windows finds binaries in the current directory
if (pathOS == OS_Windows) {
const QString currentDirBinary = checkBinary(QDir::current(), binary);
if (!currentDirBinary.isEmpty())
return currentDirBinary;
}
const QStringList paths = path.split(pathSeparator());
if (paths.empty())
return QString();
const QStringList::const_iterator cend = paths.constEnd();
for (QStringList::const_iterator it = paths.constBegin(); it != cend; ++it) {
const QDir dir(*it);
const QString rc = checkBinary(dir, binary);
if (!rc.isEmpty())
return rc;
}
return QString();
}
QString SynchronousProcess::locateBinary(const QString &binary)
{
const QByteArray path = qgetenv("PATH");
return locateBinary(QString::fromLocal8Bit(path), binary);
}
QChar SynchronousProcess::pathSeparator()
{
if (pathOS == OS_Windows)
return QLatin1Char(';');
return QLatin1Char(':');
}
} // namespace Utils